Notes Solubility3
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![Page 1: Notes Solubility3](https://reader035.fdocuments.in/reader035/viewer/2022081603/55896f21d8b42a687a8b46a9/html5/thumbnails/1.jpg)
III. Rate of dissolving & Solubility
• A. Solubility is the ability of one thing to dissolve in another
• 1. miscible – able to dissolve• 2. immiscible – unable to
dissolve
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• 3. “like dissolves like” so polar substances dissolve in other polar substances but not in nonpolar stuff
• a. salt (ionic & polar) dissolves in water (polar)
• b. vitamin k (nonpolar) dissolves in fat (nonpolar)
• c. oil (nonpolar) does not dissolve in water (polar)
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Vitamins• Multi Vitamin– Provides many essential vitamins– “Expensive urine” because most is urinated
out!• Water Soluble – will dissolve in water
– Vitamin C– CAN’T be stored - must be replenished
regularly• Fat Soluble – will NOT dissolve in water (will only
dissolve in oils)– Can overdose – Vitamin A, K …– Can be ingested periodically, stored in body fat
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B. Common ways to increase the rate of
dissolving• 1. Increase Temperature. Increasing
the temperature adds more energy and creates more collisions of solute and solvent to help dissolve.
• a. Ex: dissolving sugar in Warm tea vs. cold tea
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• 2. Increase surface area. – Smaller pieces dissolve more quickly
because there are more places to interact between solvent and solute.
– Pulverize = crush or smash
• a. Ex: Sugar packets vs. Sugar cubes
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• 3. Increase movement (stirring). • By adding motion you add kinetic
energy and move the solvent around to dissolve it.
• a. Ex: Stirring the sugar into the tea vs. letting it dissolve on its own
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C. Dissolving gases follow different rules
• 1. Gases dissolved in liquids prefer lower temperatures. Cold soda has more carbonation than warm sodas
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• 2. Prefer less movement, more movement lets the gas escape more easily. Shaken sodas lose the dissolved gases quickly & so have fewer bubbles.
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• 3. Increased Pressure increases rate of dissolving. – So when the bottle the soda they bottle
it under higher pressure to keep the gas dissolved in it
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SolubilitySolubility
Solids are more soluble at...Solids are more soluble at...• high temperatures.
Gases are more soluble at...Gases are more soluble at...• low temperatures &• high pressures• EX: nitrogen narcosis,
the “bends,” soda
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IV. Concentrations of solution – how “strong” or
“weak” the solution is• A. 3 types of solutions based on
concentration of dissolved solute
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• 1. Unsaturated solution – Solution that can easily dissolve more of the solute does not require an increase in temperature to add more solute.
• a. Ex. Weak sweet tea or unconcentrated acid.
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• 2. Saturated solution – Solution that has the maximum amount of solute dissolved for that temperature. – Any change in temperature will affect
the concentration.
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• 3. Supersaturated solution – Solution that has a higher concentration of solute than it normally would at that temperature. – It was heated up, come out of solution. – Typically can’t be disturbed or it will
crystallize.
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Solubility
SATURATED SOLUTION
no more solute dissolves
UNSATURATED SOLUTIONmore solute
dissolves
SUPERSATURATED SOLUTION
becomes unstable, crystals form
increasing concentration
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• B. Solubility Chart• 1. Shows how the solubility
changes at different temps
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Solubility Table
LeMay Jr, Beall, Robblee, Brower, Chemistry Connections to Our Changing World , 1996, page 517
0 10 20 30 40 50 60 70 80 90 100
Solubility vs. Temperature for Solids
Sol
ubili
ty (
gram
s of
sol
ute/
100
g H
2O)
KI
KCl
20
10
30
40
50
60
70
80
90
110
120
130
140
100
NaNO3
KNO3
HCl NH4Cl
NH3
NaCl KClO3
SO2
shows the dependence
of solubility on temperature
gases
solids
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Solubility
SolubilitySolubility
maximum grams of solute that will dissolve in 100 g of solvent at a given temperature
varies with temp
based on a saturated solution
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Classify as unsaturated, saturated, or
supersaturated
per100 gH2O
80 g NaNO3 @ 30oC unsaturated
saturated
unsaturated
supersaturated
45 g KCl @ 60oC
50 g NH3 @ 10oC
70 g NH4Cl @ 70oC